Analysis and optimization of photo-spectral system angular characteristics

1Belyaev, Yu.V, 2Katkovskyi, LV, 2Krot, Yu.A, 2Khvalei, SV, 2Khomitsevich, AD
1Research Institute «Institute of Applied Physical Problems named after A.N. Sevchenko» of the Belarusian State University, Minsk, Belarusia
2Research Institute «Institute of Applied Physical Problems named after A.N. Sevchenko» of the Belarusian State University, Minsk, Belarus
Kosm. nauka tehnol. 2011, 17 ;(1):80-83
https://doi.org/10.15407/knit2011.01.080
Publication Language: Russian
Abstract: 
We describe the analysis and optimization of angular characteristics of the photospectral system which is in current use onboard the International Space Station within the framework of the space experiment «Uragan». The results of our investigation of the spectrometer field-of-view angular characteristics and of field-of-view angle reducing in sagittal plane are given. Our results for positioning of the spectrometer unit field of view relative to the image registration unit field of view are discussed.
Keywords: image registration, optimization, spectrometer
References: 
1.  Belyaev B. I., Belyaev Yu. V., Domaratskii A. V., et al. The photospectral system for the space experiment «Uragan». Kosm. nauka tehnol., 16 (2), 41—48 (2010) [in Russian].
https://doi.org/10.15407/knit2010.02.041
2.   Belyaev B. I., Veller V. V., Domaratskii A. V., et al. Photospectral system for investigation of underlying surfaces from the ISS board. Modern problems of remote sensing of the Earth from space: Tez. dokl. VII Vserossijskoj otkr. konf., Moscow, November 16—20, 2009. (IKI RAN RF, Moscow, 2009) [in Russian]. d902.iki.rssi.ru. Retrieved from: http://d902.iki.rssi.ru/theses-cgi/thesis.pl?id=1844
3.  Belyaev B. I., Domaratskii A. V., Krot Yu. A., et al. Photospectral system for the International Space Station, tasks and methods of filming. In: Information technology, electronic devices and systems: Sb. tez. Mezhdunar. nauchno-prakt. konf. ITEDS’2010, Minsk, April 6—7, 2010, Vol. 2, 11—15 (BGU, Minsk, 2010) [in Russian].
4.  Belyaev Yu. V., Katkovskii L. V., Khvalei S. V., Khomitsevich A. D. Improving information content of images of vegetation objects using spectral data. Zhurn. prikladnoj spektroskopii, 74 (5), 670—676 (2007) [in Russian].
5. Belyaev B. I., Krot Yu. A., Nesterovich Ye. I., et al. Photospatial system for remote sensing of land from the ISS. Fourth Belarusian Space Congress: Mater. kongressa, Minsk, October 27—29, 2009, Vol. 2, 30—35 (Minsk, 2009) [in Russian].
6. Desinov L. V., Belyaev M. Yu., Sharipov S. Sh., et al. Monitoring of natural disasters with the ISS in 2005. In: Abstracts The third all-Russian open conf. "Modern problems of remote sounding of the Earth from space", Moscow, IKI RAN, November 14—17, 2005 (IKI RAN, Moscow, 2005) [in Russian]. smis.iki.rssi.ru. Retrieved from: http://smis.iki.rssi.ru/theses-cgi/the-sis.pl?id=415
7. Desinov L. V., Vedeshin L. N. The Hurricane Program strives to integrate with GIS. ArcReview, No. 3 (26) (2003) [in Russian]. www.dataplus.ru. Retrieved from: http://www.dataplus.ru/Arcrev/Number_26/13_uragan.htm
8.  Lebedeva V. V. Technique of optical spectroscopy, 352 p. (Moscow State University, Moscow, 1986) [in Russian].
9. Pobedinskaya M. “Hurricane” warns of hurricanes and other natural disasters. Novosti kosmonavtiki, No. 2 (2003) [in Russian]. novosti-kosmonavtiki.ru. Retrieved from: http://novosti-kosmonavtiki.ru/content/numbers/241/35.shtml

10. Airborne Pushbroom Line Scaners: An Alternative to Digital Frame Cameras. GEOinformatics, Januari/Februari, 50—57 (2005). Retrieved from: http://www.geoinformatics.com